Basic Information

Insect: Prosopocoilus inquinatus
Gene Symbol: ZFX
Assembly: GCA_036172665.1
Location: CM069876.1:49238660-49259398[+]

Transcription Factor Domain

TF Family: zf-C2H2
Domain: zf-C2H2 domain
PFAM: PF00096
TF Group: Zinc-Coordinating Group
Description: The C2H2 zinc finger is the classical zinc finger domain. The two conserved cysteines and histidines co-ordinate a zinc ion. The following pattern describes the zinc finger. #-X-C-X(1-5)-C-X3-#-X5-#-X2-H-X(3-6)-[H/C] Where X can be any amino acid, and numbers in brackets indicate the number of residues. The positions marked # are those that are important for the stable fold of the zinc finger. The final position can be either his or cys. The C2H2 zinc finger is composed of two short beta strands followed by an alpha helix. The amino terminal part of the helix binds the major groove in DNA binding zinc fingers. The accepted consensus binding sequence for Sp1 is usually defined by the asymmetric hexanucleotide core GGGCGG but this sequence does not include, among others, the GAG (=CTC) repeat that constitutes a high-affinity site for Sp1 binding to the wt1 promoter [1].
Hmmscan Out: # of c-Evalue i-Evalue score bias hmm coord from hmm coord to ali coord from ali coord to env coord from env coord to acc

1 74 0.74 47 5.7 1.7 2 23 55 76 54 76 0.96

2 74 0.013 0.84 11.2 3.5 1 23 82 104 82 104 0.96

3 74 2.4e-05 0.0015 19.8 1.5 1 23 109 131 109 131 0.99

4 74 0.0017 0.11 14.0 3.1 1 23 137 159 137 159 0.97

5 74 0.17 10 7.7 3.5 1 23 165 187 165 187 0.95

6 74 0.0002 0.012 16.9 1.8 1 23 193 215 193 215 0.98

7 74 0.22 14 7.3 4.5 3 23 223 243 221 243 0.97

8 74 0.028 1.7 10.2 3.4 1 20 249 268 249 270 0.94

9 74 0.011 0.68 11.5 1.5 3 23 285 305 284 305 0.98

10 74 0.0036 0.22 13.0 0.7 1 23 311 333 311 333 0.98

11 74 0.0032 0.2 13.1 4.3 1 23 339 361 339 361 0.98

12 74 0.0022 0.14 13.6 3.1 1 23 367 389 367 389 0.97

13 74 0.93 58 5.4 3.9 2 23 396 417 395 418 0.94

14 74 0.017 1 10.9 1.1 1 23 424 446 424 446 0.97

15 74 0.00047 0.029 15.7 3.7 1 23 452 474 452 474 0.98

16 74 0.0012 0.076 14.4 0.5 3 23 505 525 503 525 0.97

17 74 0.059 3.7 9.2 3.4 1 23 531 553 531 553 0.98

18 74 0.015 0.96 11.0 4.8 1 23 559 581 559 581 0.97

19 74 0.0092 0.58 11.7 1.3 1 23 587 609 587 609 0.98

20 74 0.19 12 7.5 2.3 1 23 617 639 617 639 0.98

21 74 2.4 1.5e+02 4.1 2.1 3 23 647 668 645 668 0.94

22 74 0.066 4.1 9.0 0.6 1 23 675 697 675 697 0.97

23 74 0.047 2.9 9.5 4.1 1 23 703 725 703 725 0.98

24 74 0.076 4.8 8.8 2.5 3 23 733 753 733 753 0.98

25 74 0.11 7.1 8.2 5.4 3 23 761 781 759 781 0.97

26 74 0.017 1 10.9 1.6 3 23 789 809 787 809 0.98

27 74 0.0041 0.26 12.8 3.6 1 23 815 837 815 837 0.96

28 74 0.96 60 5.3 4.7 3 23 845 865 843 865 0.97

29 74 0.00088 0.055 14.9 0.4 2 23 889 910 888 910 0.96

30 74 0.22 14 7.4 3.7 1 23 916 938 916 938 0.97

31 74 0.0006 0.038 15.4 2.5 1 23 943 965 943 965 0.98

32 74 1.7 1.1e+02 4.5 6.5 1 23 972 994 972 994 0.98

33 74 0.068 4.2 8.9 3.0 1 23 1000 1022 1000 1022 0.97

34 74 0.051 3.2 9.3 4.3 1 23 1028 1050 1028 1050 0.97

35 74 0.00017 0.011 17.1 3.4 1 23 1056 1078 1056 1078 0.98

36 74 0.0022 0.14 13.6 2.0 3 23 1086 1106 1084 1106 0.98

37 74 0.35 22 6.7 5.3 3 23 1114 1134 1114 1134 0.98

38 74 1.4 87 4.8 3.5 2 23 1141 1162 1140 1162 0.96

39 74 0.092 5.7 8.5 2.7 3 23 1170 1190 1168 1190 0.97

40 74 2.4e-05 0.0015 19.8 0.8 1 23 1196 1218 1196 1218 0.98

41 74 0.51 32 6.2 5.7 3 23 1226 1246 1224 1246 0.97

42 74 0.12 7.8 8.1 6.6 1 23 1284 1306 1284 1306 0.98

43 74 0.44 27 6.4 7.9 1 23 1312 1334 1312 1334 0.98

44 74 0.04 2.5 9.7 4.9 1 23 1340 1362 1340 1362 0.98

45 74 1.6 1e+02 4.6 5.8 1 23 1368 1390 1368 1390 0.98

46 74 0.073 4.5 8.9 4.2 1 23 1396 1418 1396 1418 0.97

47 74 0.29 18 7.0 2.3 3 23 1426 1446 1424 1446 0.98

48 74 0.061 3.8 9.1 3.3 2 23 1453 1474 1452 1474 0.96

49 74 0.56 35 6.1 5.1 3 23 1482 1502 1480 1502 0.97

50 74 0.32 20 6.8 1.1 1 23 1508 1530 1508 1530 0.98

51 74 0.018 1.1 10.7 0.6 2 23 1537 1558 1536 1558 0.96

52 74 0.0021 0.13 13.7 0.2 2 23 1588 1609 1587 1609 0.97

53 74 0.00074 0.046 15.1 0.8 1 23 1615 1637 1615 1637 0.98

54 74 0.45 28 6.4 5.5 1 23 1643 1665 1643 1665 0.97

55 74 0.79 49 5.6 2.4 3 23 1673 1693 1671 1693 0.97

56 74 0.00032 0.02 16.3 0.2 2 23 1723 1744 1722 1744 0.97

57 74 4.2e-05 0.0026 19.0 0.9 1 23 1777 1799 1777 1799 0.98

58 74 0.0065 0.41 12.1 4.4 1 23 1806 1828 1806 1828 0.98

59 74 0.044 2.8 9.5 3.7 1 23 1834 1856 1834 1856 0.97

60 74 0.019 1.2 10.7 4.5 1 23 1862 1884 1862 1884 0.97

61 74 0.0041 0.26 12.8 1.1 3 23 1892 1912 1890 1912 0.98

62 74 0.00042 0.026 15.9 2.2 2 23 1919 1940 1918 1940 0.97

63 74 0.73 46 5.7 5.8 3 23 1948 1968 1948 1968 0.98

64 74 1.4 88 4.8 3.4 2 23 1975 1996 1974 1996 0.96

65 74 0.00041 0.026 15.9 3.4 1 23 2002 2024 2002 2024 0.98

66 74 0.03 1.9 10.1 5.2 1 23 2030 2052 2030 2052 0.97

67 74 0.0051 0.32 12.5 2.3 3 23 2060 2080 2058 2080 0.98

68 74 0.0023 0.14 13.6 0.8 1 23 2086 2108 2086 2108 0.98

69 74 0.1 6.4 8.4 0.7 1 23 2114 2136 2114 2136 0.97

70 74 0.0061 0.38 12.2 0.1 2 23 2162 2183 2161 2183 0.96

71 74 0.0045 0.28 12.6 3.7 1 23 2189 2211 2189 2211 0.98

72 74 0.0033 0.21 13.1 5.9 1 23 2217 2239 2217 2239 0.98

73 74 0.59 37 6.0 2.7 3 23 2247 2267 2245 2267 0.97

74 74 2.2 1.4e+02 4.2 3.4 3 19 2275 2291 2273 2295 0.95

#	of	c-Evalue	i-Evalue	score	bias	hmm coord from	hmm coord to	ali coord from	ali coord to	env coord from	env coord to	acc
1	74	0.74	47	5.7	1.7	2	23	55	76	54	76	0.96
2	74	0.013	0.84	11.2	3.5	1	23	82	104	82	104	0.96
3	74	2.4e-05	0.0015	19.8	1.5	1	23	109	131	109	131	0.99
4	74	0.0017	0.11	14.0	3.1	1	23	137	159	137	159	0.97
5	74	0.17	10	7.7	3.5	1	23	165	187	165	187	0.95
6	74	0.0002	0.012	16.9	1.8	1	23	193	215	193	215	0.98
7	74	0.22	14	7.3	4.5	3	23	223	243	221	243	0.97
8	74	0.028	1.7	10.2	3.4	1	20	249	268	249	270	0.94
9	74	0.011	0.68	11.5	1.5	3	23	285	305	284	305	0.98
10	74	0.0036	0.22	13.0	0.7	1	23	311	333	311	333	0.98
11	74	0.0032	0.2	13.1	4.3	1	23	339	361	339	361	0.98
12	74	0.0022	0.14	13.6	3.1	1	23	367	389	367	389	0.97
13	74	0.93	58	5.4	3.9	2	23	396	417	395	418	0.94
14	74	0.017	1	10.9	1.1	1	23	424	446	424	446	0.97
15	74	0.00047	0.029	15.7	3.7	1	23	452	474	452	474	0.98
16	74	0.0012	0.076	14.4	0.5	3	23	505	525	503	525	0.97
17	74	0.059	3.7	9.2	3.4	1	23	531	553	531	553	0.98
18	74	0.015	0.96	11.0	4.8	1	23	559	581	559	581	0.97
19	74	0.0092	0.58	11.7	1.3	1	23	587	609	587	609	0.98
20	74	0.19	12	7.5	2.3	1	23	617	639	617	639	0.98
21	74	2.4	1.5e+02	4.1	2.1	3	23	647	668	645	668	0.94
22	74	0.066	4.1	9.0	0.6	1	23	675	697	675	697	0.97
23	74	0.047	2.9	9.5	4.1	1	23	703	725	703	725	0.98
24	74	0.076	4.8	8.8	2.5	3	23	733	753	733	753	0.98
25	74	0.11	7.1	8.2	5.4	3	23	761	781	759	781	0.97
26	74	0.017	1	10.9	1.6	3	23	789	809	787	809	0.98
27	74	0.0041	0.26	12.8	3.6	1	23	815	837	815	837	0.96
28	74	0.96	60	5.3	4.7	3	23	845	865	843	865	0.97
29	74	0.00088	0.055	14.9	0.4	2	23	889	910	888	910	0.96
30	74	0.22	14	7.4	3.7	1	23	916	938	916	938	0.97
31	74	0.0006	0.038	15.4	2.5	1	23	943	965	943	965	0.98
32	74	1.7	1.1e+02	4.5	6.5	1	23	972	994	972	994	0.98
33	74	0.068	4.2	8.9	3.0	1	23	1000	1022	1000	1022	0.97
34	74	0.051	3.2	9.3	4.3	1	23	1028	1050	1028	1050	0.97
35	74	0.00017	0.011	17.1	3.4	1	23	1056	1078	1056	1078	0.98
36	74	0.0022	0.14	13.6	2.0	3	23	1086	1106	1084	1106	0.98
37	74	0.35	22	6.7	5.3	3	23	1114	1134	1114	1134	0.98
38	74	1.4	87	4.8	3.5	2	23	1141	1162	1140	1162	0.96
39	74	0.092	5.7	8.5	2.7	3	23	1170	1190	1168	1190	0.97
40	74	2.4e-05	0.0015	19.8	0.8	1	23	1196	1218	1196	1218	0.98
41	74	0.51	32	6.2	5.7	3	23	1226	1246	1224	1246	0.97
42	74	0.12	7.8	8.1	6.6	1	23	1284	1306	1284	1306	0.98
43	74	0.44	27	6.4	7.9	1	23	1312	1334	1312	1334	0.98
44	74	0.04	2.5	9.7	4.9	1	23	1340	1362	1340	1362	0.98
45	74	1.6	1e+02	4.6	5.8	1	23	1368	1390	1368	1390	0.98
46	74	0.073	4.5	8.9	4.2	1	23	1396	1418	1396	1418	0.97
47	74	0.29	18	7.0	2.3	3	23	1426	1446	1424	1446	0.98
48	74	0.061	3.8	9.1	3.3	2	23	1453	1474	1452	1474	0.96
49	74	0.56	35	6.1	5.1	3	23	1482	1502	1480	1502	0.97
50	74	0.32	20	6.8	1.1	1	23	1508	1530	1508	1530	0.98
51	74	0.018	1.1	10.7	0.6	2	23	1537	1558	1536	1558	0.96
52	74	0.0021	0.13	13.7	0.2	2	23	1588	1609	1587	1609	0.97
53	74	0.00074	0.046	15.1	0.8	1	23	1615	1637	1615	1637	0.98
54	74	0.45	28	6.4	5.5	1	23	1643	1665	1643	1665	0.97
55	74	0.79	49	5.6	2.4	3	23	1673	1693	1671	1693	0.97
56	74	0.00032	0.02	16.3	0.2	2	23	1723	1744	1722	1744	0.97
57	74	4.2e-05	0.0026	19.0	0.9	1	23	1777	1799	1777	1799	0.98
58	74	0.0065	0.41	12.1	4.4	1	23	1806	1828	1806	1828	0.98
59	74	0.044	2.8	9.5	3.7	1	23	1834	1856	1834	1856	0.97
60	74	0.019	1.2	10.7	4.5	1	23	1862	1884	1862	1884	0.97
61	74	0.0041	0.26	12.8	1.1	3	23	1892	1912	1890	1912	0.98
62	74	0.00042	0.026	15.9	2.2	2	23	1919	1940	1918	1940	0.97
63	74	0.73	46	5.7	5.8	3	23	1948	1968	1948	1968	0.98
64	74	1.4	88	4.8	3.4	2	23	1975	1996	1974	1996	0.96
65	74	0.00041	0.026	15.9	3.4	1	23	2002	2024	2002	2024	0.98
66	74	0.03	1.9	10.1	5.2	1	23	2030	2052	2030	2052	0.97
67	74	0.0051	0.32	12.5	2.3	3	23	2060	2080	2058	2080	0.98
68	74	0.0023	0.14	13.6	0.8	1	23	2086	2108	2086	2108	0.98
69	74	0.1	6.4	8.4	0.7	1	23	2114	2136	2114	2136	0.97
70	74	0.0061	0.38	12.2	0.1	2	23	2162	2183	2161	2183	0.96
71	74	0.0045	0.28	12.6	3.7	1	23	2189	2211	2189	2211	0.98
72	74	0.0033	0.21	13.1	5.9	1	23	2217	2239	2217	2239	0.98
73	74	0.59	37	6.0	2.7	3	23	2247	2267	2245	2267	0.97
74	74	2.2	1.4e+02	4.2	3.4	3	19	2275	2291	2273	2295	0.95

Sequence Information

Coding Sequence: ATGTTGTCGGTGGATGTTTTCTCTCAACTGTACGACTTTTTTCGATTTTCACGTGGCGCCCTGGAGGACGAAAACTCTTTCGAGTTGTCTCAGCCCGTCCCCGTTGCTACGCACAGGTCTCAACCGATCCCCACATCTAAGCCAGTGAATAAGGAACCGATCAAATGCCGAATATGCGATTCCGAATTTAAATGCCGCGCGTATTTGCGCCAGCACATACTACTACACACCGGTGAGAAACCCTTCAGctgcgacctttgcgattacaaatgccgagaCGTCTCAAACCTGAAACAGCACAAGTTCATACACGCCGAGAAACTATTTAAATGCGACGTCTGCGATTACAAATTCCGAGCAGCTCGATATTTAAAACGGCACATGTTAACGCACACCAGCGAGACTCTGTTCAGTTGCGAGACGTGCGATTACAAGTATCGCCAGCTCGAATATTTGAAACGGCACAAGCtaaaacacaccgacgagaaaccgttcagttgcgatctttgcggTTACAAGTGTCGGTACCGCGGGAGTTTTAAACTGCACGAGTTGCAGCACGCCGGCGCgaagccgttcagctgcgatctctgcgattataaatgccggcggCCCGGAGCTCTGAAAAGTCACATGCTAAGacacaccgatgagaagccgttcggatgtgatctctgcgattataagtgccgacaTCTCGGAGGTTTGAAGCGTCACAAGTTGAGACACGTTGACGAGAAGCCGTTTAGATGTgagctttgcgattataaatgcggTCAGCCGGGAAATTTGAAGAGGCACAAATGTCTGCTGATCCCTAAAGTTGAGCCAGCGGCTAAGAAAACAACCCTATGCCGAATTTGCAATTCCGAATTTAAATCTCACGCGTATTTGCGCAGACACATCTTGATACACACAGGCGAGAAGCCATTCAGCTGtaacctttgcgattataaagcCCGAGAGCTCGGAAATTTGAAGCAGCACATGTTGAAGCACACCGACGCGAAGCCGTTCAcgtgtgacctttgcgattataagtgccgagatctcggaaatttcaaaaggcACAAGCTAACGcacgccgacgagaagccgttcagctgcaacctctgcgattataagtgccggcAGCTCGGATCTCTGAAAAGACACACGCTGATACACACCGGCAAGAAGCCAATCagctgtgacctttgcgattttaaGTGCCGAGAAGTTGGGAATCTCAAGCAACACAAGCTGAGGCACCACGTTGcggagaagccgttcagttgtgacctttgcgattataaaggcCGTGACCTCGGCAATTTCAACAGGCACAAGTTGAGGcacgccgacgagaagccgttcagttgtagcctttgcgattatagatgCCGACAGCTCGGATCGTTGAAAAGGCATATGTTAAGGCACAGCGGTATGAAGCCGatcagttgcgatctttgcgaAGGCGGCCAACCGATCCCTAAAGCTGAGTGGCCAGTGGCTAAGAAAACAACCGCATGCCGAATATGCAACTCCGAATTCAAATCGCGCGCGTACCTGCGCAGACACATCATGATACATacgggcgagaagccgttcacttgcgatctctgcgattataaatgccgagagCTCGGAAGTTTGAAGCAACACAAGCTGAAGCACACCGACACgaagccgttcagctgcgacctttgcgattacaagtgccgacaGGCCGGGCATCTGAAAGAGCACAAGCtgaaacacaccggcgagatGCCGTTCACttgcgacctttgcgattacagcAGTCGGAAGATTACGAACATGAAAAGGCACGTGTTAACGCACGCCGGCGGACAAAAGCCGTTGTTTacttgtgacctttgcgattataaaagtCGACAGCTCAAACGTCTGCAAGAGCACAAGTTAAAACACACCGTCGAGAAGCCATTCGGCTGTGACgcttgcgattataaatgccgagatGCTAAAACTATGAAACAACATGTTAAGTTAAAGCACGACGCCGCTGCGAAGCCGTTCGCTTGTGATCAGTGCGATTTCGAAAGCCGATACGTCAACAGCTTGAAACGACACgtgttaacacacaccgacgaaaagcccttcagttgtgacctctgcgattataaatgccgagaaCACGGAAGtttgaaacaacacgtgctaacgCATGCCGACAGGAAACCGCTCGgctgtgatctctgcgattacagGTGCCGGACCGTCGGGAATCTGAAAGTGCACAAGTTGAAACACACCGGTGAAATGCCGTTCGGCTGTGAGCTTTGCGATTATAGATGCCGAGAGCTCAGTCATTTGAAGCGACACAAGCTAAAGCACACTGACGAGAGACCGTTCGGctgtgacctctgcgattataagtgtcgaCAGGCCGGGGATATTAAAAAGCACATGTTGAAGCACACCGGCGACAAGCCGCACGCTTGTgatgtttgcgattataaatgccgcgATTccggaactttgaatcggcatAAGTTAACGCACACAGATGAGAAGCCGTTTGGTTGTGGTCTTTGCGATTTTCGATGCCGGCATCGCTCAAGCTTGAAGCCGCATATGTTAAAACACGCTGGCGAGAAGCCGCAAGCATTTCTTTGTTTCAGACTGCAACAGTTACCTGTGAATAAGAAAACAATCAGGTGCGGAGTATGCGATTCCGAATTTAAATCTCGCACGAACTTGCGCAAGCATGTATTAATACACACCGgtgagaaaccgttcagctgtgatCTCTGCGGTTACAAATGCCGACAGGTCGGGTGTCTGGAACAGCACGCGTTCACGCATGCCGAGAAACTGTTCAAATGCAACGTCTGCGATTGCGAATTCCAAACGGCCCGATCGCTGAAAAGGCACGTGTTgatgcacaccggcgagaagacTCAGTTCAGTTGCGAGacttgcgattacaaatgtcaCCAGCTCAGACTTTTGAAACTGCACCGGCTGAAGCACACCGACGCGAAACCGTTcgcttgcgatctttgcgattacaagtgccgacaGCTCGGAAGCTTCAAACTgcacaagttaacgcacaccgacgcgaagccgttcagttgtgacctctgcgattataaatgccgacaagTCGGACATTTAACGGTGCACAAGTTAAGACACAGCGACGAGATGCCatacagttgtgatctttgcgattataaatgccgaaatTCCGGATACTTGAAGCGGCACATGTTAAgccacaccgacgagaaaccgttcggttgtgatctctgcgattataaatgtcgataCCCCGGATACTTGAAGAAGCACATGTTAAGACACACGGACGAGAAACCGCTCGGCTGTGATCTTTgtgattacaaatgccgacacCTCGGAAACTTGAAGGAGCACAAGCTGAagcacaccgatgagaagccgCTGAGCTGTGAACTCTGCGATTTTAAGTGTCGGTATTTCGGAAGTCTGAAActgcacaagttaaagcacgccggcgagaagccgttcggttgtgatctctgcgattataagtgccgggGGCTCGGTAATCTGAAAaagcacaagttaaagcacgtGGAAGAGAAGCCGTTTAGTTGTGACGTTTGCGGTTATGGATTTCGACAGCTCGAGAATCTGAAACAACACAGGCTAAagcacaccgatgagaagccgttTGGTTGTGAGCTTTGCGATTTCAGGTGCCGGCATTACGCCAGCTTGAAACGCCACAAGTtaaaacacaccgacgagaagcaaGGCGGAAGTTTGAAACAACGTAAGTTAAAAACGCACCAAGAAGAAGCAGTGACATGTGAAGGGATCCTGGACGTCAAACCGTCGAATAAGAAAACATTCGAGTGCCACATTTGCGACGCGAAATTTAAATGTTGCAGGAATCTGCGCACGCACATactgatacacaccggcgagaaaccattcagctgcgacctctgcgattataaatgccgggaACATAAAACCTTGAAGAGGCACAAGATGAAGCAcagcgacgagaagccgttcacttgcgacctttgcgattacaagtgccgacaCGTCGCAAGCTTGAAACGGCACGAGCTGAAGCACACCGCCGAGAGCCCGTTTACctgcgacctttgcgattataaatgcctgCACCGAGGCAGTTTGAAACAGCACAAGCTGAcgcacaccgatgagaagccgttcagttgcgacgcgtgcgattataaatgccggcagGCCGGGCACTTGAAAGAGCACAAGTTGAAACACActaacgagaagccgttcggctgcgagctctgcgattataaatcgCGACACCTCGGAAATATGAGACAGCACAAGCTGACGCACACTGGCGAAAAGCCGCTGGTTTgtaatctttgcgattataagtgtcgaCAACTGCGAAGTCTGAGAGAGCACAAGCTGAAGCACACTAATGAGAAGCCGTACGGTTGTGAGcattgcgattataagtgccgacaGCTGAGGAGATTGAAGCAGCACGAGTTAACGCACGCTAGTGAGAAGCCGTTCAAATGTGAGCGCTGCGGGTACGCATCCGTGTGCGCTGCGACTTTGAAACGGCATGTGTTAAAGCACACAGGCGAGAAGCGGTTGAGTTGTGAcgtgtgcgattataaatgccgagcGCTCGGAGATTTGAACGAGCACATGTTGAAGCATTCCGACGAGAAACCAATCAAGTGCGAAAATGTCGATTTGCTacgTCAACGAATCCGCAAAGCTAAGCCAGCCAATAAGAAAACAGTCACGTGCCGGAtttgtgattttaaatttagatcTCGCGCAGCTTTGCTCATGCACattttaatacacaccggcgagaagccgttcagttgtaacCTTTGCGGTTACAAATCCAGGCAACTCGGCGGTTTGAAACAGCACATGCtaaagcacaccgacgagaagccgttcagttgcgacctttgcgattttaaGTGTCAGCGGTTCGAAAGCTTGAAGCGGCACAAGCTGAAGCACACCGACGACAAGCCGTACGgatgtgatctttgcgattatagatgCCGCCTGTTGGAATACTTGAAGCAGCACAAGTTGAAGCACACCAATGAGAAGCCGtacggttgtgatctttgcggaTTCAGATTGCGACGGATCACCAGAGTCGAACCAGTGAATAAGAAAACGATCAAATGCGGGATATGCGATTCTGAATTTAAATCTCGCGCAAATTTGCGCAAGCACGTGTTAATACACACCGGTGAGAAACCGTTCGGCTGCAATgcgtgcgattataaatgccggcggTTCGAATGTCTGAAACAGCACGCGTTCACGCACGCCGAGAAACTATTCAAATGTAACGTTTGCGATCGCGAATTCCAGACGGCTCGATCGCTAAAAAGGCACGTGTTgatgcacaccggcgagaagacGCAGTTCAGTTGCGAGacttgcgattacaaatgccgtcAACTCGAACTTTTGAAACGGCATCGCTTGAAGCACACCGACGCGAAACCGTTcgcttgcgatctttgcgattacaaatgtcgaCAGCGTGGAAGTTTCAAACTgcacaagttaacgcacaccgacgcgaagccgttcagttgtgacctctgcgattataaatgccgacaggcTGGACATTTGACGTTGCATAAGTTAAGACATAGCGATGTGatgccgttcggttgtgatctttgcgattacagagGCCGAAATTCCAGGTATCTGAAGCGGCACATGTTAAGACACACAGACGAGAAACCGTTGAGATGTGaagtttgcgattataaatgccgataCCCCGGATATCTGAAGAAGCACATGTTGcgacacaccgacgagaaaccgctCGGCTGTGACCTTTgcaattataaatgccgacaccTCGCGAACTTGAAGGAACACAAGCTGAAGCACAGCGATGAGAAGCCGCTGAGCTGTGAActctgcgattttaaatgtcgGTATTTCGGAAGTTTGAGGCTGCACAAGCTGAAGCACGCTGACGAGAATCCGTTTAGCTGTgacgtttgcgattataaatgccgataCCGGGGCAGTTTGAAGCAGCACATGCTGACGCACACGGATGAGAAGCCTTTCAATTGCGACacgtgcgattataaatgccgacaggcCGGTCATTTGAGAGAGCACAAGTTAaaacacaccaacgagaagccgttcggttgtgaacTCTGCGGTTATAAATCCAGACACCAGGGAAATTTGAAACAGCACAAGTTAACGCACGCTGGTGAGAAGCCGTTCACTTGCGAGCTTTGCGGGTATGCATCCGTGTACGCTGCGTTTTTCAAACGGCATATGAAGAAGCACGCAGGCGAGAAGCGGTTCAGTTGTGATGTGTGCGATTATGAATGCCGAGCGCTCGGAGATTTGAACGAGCACAAGTTGAagcacaccgatgagaagccgttcaaaTGCGAGTGTCAATGGATCGCCGATGTTAAACCAATCCTGAATAAGAAAACAGTCACATGCGGGATATGTGACTCTAAATTTAAATCTCGCGCAGCTTTGCGCATGCACGTCTTaatacataccggcgagaagccgttccgCTGTAACATTTGCGATTTTAAGTGCCGTCGGCTCGGAGGTTTGAAGCAGCACAAGTTGACGCACgtcgacgagaagccgttcacttgcgatctctgcgattataaattccGACACTTCCAAAGTCTGAAGCGGCACACGCtaaaacacaccgacgagaagccgttcggttgtgatctttgcgattacaagtgccgccTGTTAGAGTATCTGAAGCAGCACAGGTtgaagcacaccgacgagaagccgttcggttgtgacctttgcgatttcaGATGCCGGTACCGGACGAGTTTGAGACGGCACAAGTGGCAGCACACTgatgagaaaccgttcggttgtgacgaAGGCGACGTTGactga
Protein Sequence: MLSVDVFSQLYDFFRFSRGALEDENSFELSQPVPVATHRSQPIPTSKPVNKEPIKCRICDSEFKCRAYLRQHILLHTGEKPFSCDLCDYKCRDVSNLKQHKFIHAEKLFKCDVCDYKFRAARYLKRHMLTHTSETLFSCETCDYKYRQLEYLKRHKLKHTDEKPFSCDLCGYKCRYRGSFKLHELQHAGAKPFSCDLCDYKCRRPGALKSHMLRHTDEKPFGCDLCDYKCRHLGGLKRHKLRHVDEKPFRCELCDYKCGQPGNLKRHKCLLIPKVEPAAKKTTLCRICNSEFKSHAYLRRHILIHTGEKPFSCNLCDYKARELGNLKQHMLKHTDAKPFTCDLCDYKCRDLGNFKRHKLTHADEKPFSCNLCDYKCRQLGSLKRHTLIHTGKKPISCDLCDFKCREVGNLKQHKLRHHVAEKPFSCDLCDYKGRDLGNFNRHKLRHADEKPFSCSLCDYRCRQLGSLKRHMLRHSGMKPISCDLCEGGQPIPKAEWPVAKKTTACRICNSEFKSRAYLRRHIMIHTGEKPFTCDLCDYKCRELGSLKQHKLKHTDTKPFSCDLCDYKCRQAGHLKEHKLKHTGEMPFTCDLCDYSSRKITNMKRHVLTHAGGQKPLFTCDLCDYKSRQLKRLQEHKLKHTVEKPFGCDACDYKCRDAKTMKQHVKLKHDAAAKPFACDQCDFESRYVNSLKRHVLTHTDEKPFSCDLCDYKCREHGSLKQHVLTHADRKPLGCDLCDYRCRTVGNLKVHKLKHTGEMPFGCELCDYRCRELSHLKRHKLKHTDERPFGCDLCDYKCRQAGDIKKHMLKHTGDKPHACDVCDYKCRDSGTLNRHKLTHTDEKPFGCGLCDFRCRHRSSLKPHMLKHAGEKPQAFLCFRLQQLPVNKKTIRCGVCDSEFKSRTNLRKHVLIHTGEKPFSCDLCGYKCRQVGCLEQHAFTHAEKLFKCNVCDCEFQTARSLKRHVLMHTGEKTQFSCETCDYKCHQLRLLKLHRLKHTDAKPFACDLCDYKCRQLGSFKLHKLTHTDAKPFSCDLCDYKCRQVGHLTVHKLRHSDEMPYSCDLCDYKCRNSGYLKRHMLSHTDEKPFGCDLCDYKCRYPGYLKKHMLRHTDEKPLGCDLCDYKCRHLGNLKEHKLKHTDEKPLSCELCDFKCRYFGSLKLHKLKHAGEKPFGCDLCDYKCRGLGNLKKHKLKHVEEKPFSCDVCGYGFRQLENLKQHRLKHTDEKPFGCELCDFRCRHYASLKRHKLKHTDEKQGGSLKQRKLKTHQEEAVTCEGILDVKPSNKKTFECHICDAKFKCCRNLRTHILIHTGEKPFSCDLCDYKCREHKTLKRHKMKHSDEKPFTCDLCDYKCRHVASLKRHELKHTAESPFTCDLCDYKCLHRGSLKQHKLTHTDEKPFSCDACDYKCRQAGHLKEHKLKHTNEKPFGCELCDYKSRHLGNMRQHKLTHTGEKPLVCNLCDYKCRQLRSLREHKLKHTNEKPYGCEHCDYKCRQLRRLKQHELTHASEKPFKCERCGYASVCAATLKRHVLKHTGEKRLSCDVCDYKCRALGDLNEHMLKHSDEKPIKCENVDLLRQRIRKAKPANKKTVTCRICDFKFRSRAALLMHILIHTGEKPFSCNLCGYKSRQLGGLKQHMLKHTDEKPFSCDLCDFKCQRFESLKRHKLKHTDDKPYGCDLCDYRCRLLEYLKQHKLKHTNEKPYGCDLCGFRLRRITRVEPVNKKTIKCGICDSEFKSRANLRKHVLIHTGEKPFGCNACDYKCRRFECLKQHAFTHAEKLFKCNVCDREFQTARSLKRHVLMHTGEKTQFSCETCDYKCRQLELLKRHRLKHTDAKPFACDLCDYKCRQRGSFKLHKLTHTDAKPFSCDLCDYKCRQAGHLTLHKLRHSDVMPFGCDLCDYRGRNSRYLKRHMLRHTDEKPLRCEVCDYKCRYPGYLKKHMLRHTDEKPLGCDLCNYKCRHLANLKEHKLKHSDEKPLSCELCDFKCRYFGSLRLHKLKHADENPFSCDVCDYKCRYRGSLKQHMLTHTDEKPFNCDTCDYKCRQAGHLREHKLKHTNEKPFGCELCGYKSRHQGNLKQHKLTHAGEKPFTCELCGYASVYAAFFKRHMKKHAGEKRFSCDVCDYECRALGDLNEHKLKHTDEKPFKCECQWIADVKPILNKKTVTCGICDSKFKSRAALRMHVLIHTGEKPFRCNICDFKCRRLGGLKQHKLTHVDEKPFTCDLCDYKFRHFQSLKRHTLKHTDEKPFGCDLCDYKCRLLEYLKQHRLKHTDEKPFGCDLCDFRCRYRTSLRRHKWQHTDEKPFGCDEGDVD

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: -
90% Identity: -
80% Identity: -